United States Department of Agriculture Soil Conservation Service Agriculture Handbook Number 590 Ponds- Planning, Design, Construction
This handbook describes the requirements for building a pond. It is useful to the landowner for general information and also serves as a reference for the engineer, technician, and contractor. In fulfilling their obligation to protect the lives and property of citizens, most states and many other government entities have laws, rules, and regulations governing the installation of ponds. Those responsible for planning and designing ponds must comply with all such laws and regulations. The owner is responsible for obtaining permits, performing necessary maintenance, and having the required safety inspections made. Supersedes Ponds for Water Supply and Recreation Agriculture Handbook No. 387 January 1971 Issued June 1982
Contents Page Introduction Water Needs 1 Preliminary Investigations 7 General Considerations 7 Adequacy of the Drainage Area 8 Minimum Pond Depth 8 Drainage Area Protection 10 Pond Capacity 10 Landscape Evaluation 10 Estimating Storm Runoff 11 Rainfall Amounts and Expected Frequency 11 Hydrologic Groupings of Soils 11 Runoff Curve Numbers 15 Volume of Storm Runoff 15 Peak Discharge Rate 19 Engineering Surveys 19 Embankment Ponds 20 Detailed Soils Investigation 20 Spillway Requirements 21 Pipes Through the Dam 28 Planning an Earthfill Dam 31 Staking for Construction 38 Building the Pond 39 Excavated Ponds 41 Soils 42 Spillway and Inlet Requirements 43 Planning the Pond 43 Building the Pond 45 Sealing the Pond 46 Installing Vegetation 49 Protecting the Pond 49 Maintaining the Pond 50 Pond Safety 51
Introduction For many years farmers and ranchers have been building ponds for livestock water and for irrigation. By 1980 more than 2.1 million ponds had been built in the United States by land users on privately owned land. More will be needed in the future. The demand for water has increased tremendously in recent years, and ponds are one of the most reliable and economical sources of water. Ponds are now serving a variety of purposes, including water for livestock and for irrigation, fish production, field and orchard spraying, fire protection, energy conservation, wildlife habitat, recreation, and landscape improvement. This handbook describes two types of ponds and outlines the requirements for building each. The information comes from the field experience and observation of land users, engineers, conservationists, and other specialists. An embankment pond is made by building an embankment or dam across a stream or watercourse where the stream valley is depressed enough to permit storing 6 feet or more of water. The land slope may range from gentle to steep. An excavated pond is made by digging a pit or dugout in a nearly level area. Because the water capacity is obtained almost entirely by digging, excavated ponds are used where only a small supply of water is needed. Some ponds are built in gently to moderately sloping areas and the capacity is obtained both by excavating and by building a dam. The criteria and recommendations are for dams that are less than 35 feet high and located where failure of the structure will not result in loss of life, in damage to homes, commercial or industrial buildings, main highways, or railroads; or in interrupted use of public utilities. Local information is essential, and land users are encouraged to consult with specialists experienced in building ponds. Water Needs Livestock Clean water and ample forage are equally essential for livestock to be finished out in a marketable condition. If stockwater provisions in pasture and range areas are inadequate, grazing will be concentrated near the water and other areas will be undergrazed. This contributes to serious livestock losses and instability in the livestock industry. Watering places must also be properly distributed in relation to the available forage. Areas of abundant forage may be underused if water is not accessible to livestock grazing on any part of that area (fig. 1, p. 3). Providing enough watering places in pastures encourages more uniform grazing, facilitates pasture improvement practices, retards erosion, and enables farmers to make profitable use of soilconserving crops and erodible, steep areas unfit for cultivation. An understanding of stockwater requirements helps in planning a pond large enough to meet the needs of the stocks using the surrounding grazing area. The following tabulation of the average daily consumption of water by different kinds of livestock is a guide for estimating water needs: Kind of livestock Beef cattle and horses..... Dairy cows (drinking only)... Dairy cows (drinking and barn needs)... Hogs...... Sheep... Gallons per head per day 12 to 15 15 35 4 2 The amount of water consumed at one pond depends on the average daily consumption per animal, number of livestock served, and period over which they are served. Irrigation Farm ponds are now an important source of irrigation water (fig. 2, p. 3), particularly in the East, which does not have the organized irrigation enterprises of the West. Before World War II, irrigation was not considered necessary in the humid East. Now many farmers in the East are irrigating their crops. Water requirements for irrigation are greater that those for any other purpose discussed in this handbook. The area irrigated from a farm pond is limited by the amount of water available throughout the growing season. Pond capacity must be adequate to meet crop requirements and to overcome unavoidable water losses. For example, a 3-inch application of water on 1 acre requires 81,462 gallons. Consequently, irrigation from farm ponds is usually limited to high-value crops on small acreages, usually less than 50 acres. The required storage capacity of a pond used for irrigation depends on these interrelated factors: water requirements of the crops to be irrigated, effective rainfall expected during the growing season, 1
application efficiency of the irrigation method, losses due to evaporation and seepage, and the expected inflow to the pond. Your local SCS conservationist can help you estimate the required capacity of your irrigation pond. Fish Production Many land users are finding that fish production is profitable. A properly built and managed pond can yield from 100 to 300 pounds of fish annually for each acre of water surface. A good fish pond can also provide recreation (fig. 3, p. 4) and can be an added source of income should you wish to open it to people in the community for a fee. Ponds with surface areas of a quarter of an acre to several acres can be managed for good fish production. Ponds of less than 2 acres are popular because they are less difficult to manage than larger ones. You can obtain further information from the U.S. Department of Agriculture Farmers' Bulletin 2250, Warm-Water Fishponds; Farmers' Bulletin 2260, Catfish Farming; and Farmers' Bulletin 2249, Trout Ponds for Recreation. Field and Orchard Spraying You may wish to provide water for applying pesticides to your field and orchard crops. Generally, the amount of water needed for spraying is small, but it must be available when needed. About 100 gallons per acre for each application is enough for most field crops. Orchards, however, may re quire 1,000 gallons or more per acre for each spraying. Provide a means of conveying water from the pond to the spray tank. In an embankment pond, place a pipe in the dam and a flexible hose at the downstream end to fill the spray tank by gravity. In an excavated pond, a small pump is needed to fill the tank. Fire Protection A dependable water supply is needed for fighting fire. If your pond is located close to your house, barn, or other buildings, provide a centrifugal pump with a power unit and a hose long enough to reach all sides of all the buildings. Also provide for one or more dry hydrants (figs. 4, p. 4 and 5, p. 2). Although water-storage requirements for fire protection are not large, the withdrawal rate for firefighting is high. A satisfactory fire stream should be not less than 250 gallons per minute (gpm) with pressure at the nozzle of no less than 50 pounds per square inch (psi). Fire nozzles usually are 1 inch to 1-1/2 inches in diameter. Use good quality rubber-lined firehoses, 2-1/2 to 3 inches in diameter. Preferably, the hose should be no more than 600 feet long. A typical firehose line consists of 500 feet of 3-inch hose and a 1-1/8 inch smooth nozzle. A centrifugal pump operating at 83 psi provides a stream of 265 gpm with a nozzle pressure of 50 psi. Such a stream running for 5 hours requires 1/4 acre-foot of water. If you live in an area protected by a rural firefighting organization, provide enough Ground line. ; 11 1 ~ Figure 5. Details of a dry hydrant installation. 2
Figure 1. A stockwater trough fed by this pond supplies water for the needs of the cattle in a nearby grazing area. Figure 2. Water is pumped out of this pond for much-needed irrigation. 3
Figure 3. A pond stocked with fish can provide recreation as well as profit. Figure 4. A dry hydrant is needed when a pond is close enough to home or barn to furnish water for firefighting. 4